The Structure and Origin of Switchbacks: Parker Solar Probe Observations

Jia Huang; J. C. Kasper; L. A. Fisk; Davin E. Larson; Michael D. McManus; C. H.K. Chen; Mihailo M. Martinović; K. G. Klein; Luke Thomas; Mingzhe Liu; Bennett A. Maruca; Lingling Zhao; Yu Chen; Qiang Hu; Lan K. Jian; J. L. Verniero; Marco Velli; Roberto Livi; P. Whittlesey; Ali Rahmati; Orlando Romeo; Tatiana Niembro; Kristoff Paulson; M. Stevens; A. W. Case; Marc Pulupa; Stuart D. Bale; J. S. Halekas

doi:10.3847/1538-4357/acd17e

The Structure and Origin of Switchbacks: Parker Solar Probe Observations

Jia Huang, J. C. Kasper, L. A. Fisk, Davin E. Larson, Michael D. McManus, C. H.K. Chen, Mihailo M. Martinović, K. G. Klein, Luke Thomas, Mingzhe Liu, Bennett A. Maruca, Lingling Zhao, Yu Chen, Qiang Hu, Lan K. Jian, J. L. Verniero, Marco Velli, Roberto Livi, P. Whittlesey, Ali RahmatiOrlando Romeo, Tatiana Niembro, Kristoff Paulson, M. Stevens, A. W. Case, Marc Pulupa, Stuart D. Bale, J. S. Halekas

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Abstract

Switchbacks are rapid magnetic field reversals that last from seconds to hours. Current Parker Solar Probe (PSP) observations pose many open questions in regard to the nature of switchbacks. For example, are they stable as they propagate through the inner heliosphere, and how are they formed? In this work, we aim to investigate the structure and origin of switchbacks. In order to study the stability of switchbacks, we suppose the small-scale current sheets therein are generated by magnetic braiding, and they should work to stabilize the switchbacks. With more than 1000 switchbacks identified with PSP observations in seven encounters, we find many more current sheets inside than outside switchbacks, indicating that these microstructures should work to stabilize the S-shape structures of switchbacks. Additionally, we study the helium variations to trace the switchbacks to their origins. We find both helium-rich and helium-poor populations in switchbacks, implying that the switchbacks could originate from both closed and open magnetic field regions in the Sun. Moreover, we observe that the alpha-proton differential speeds also show complex variations as compared to the local Alfvén speed. The joint distributions of both parameters show that low helium abundance together with low differential speed is the dominant state in switchbacks. The presence of small-scale current sheets in switchbacks along with the helium features are in line with the hypothesis that switchbacks could originate from the Sun via interchange reconnection process. However, other formation mechanisms are not excluded.

Original language	English (US)
Article number	33
Journal	Astrophysical Journal
Volume	952
Issue number	1
DOIs	https://doi.org/10.3847/1538-4357/acd17e
State	Published - Jul 1 2023

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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Huang, J., Kasper, J. C., Fisk, L. A., Larson, D. E., McManus, M. D., Chen, C. H. K., Martinović, M. M., Klein, K. G., Thomas, L., Liu, M., Maruca, B. A., Zhao, L., Chen, Y., Hu, Q., Jian, L. K., Verniero, J. L., Velli, M., Livi, R., Whittlesey, P., ... Halekas, J. S. (2023). The Structure and Origin of Switchbacks: Parker Solar Probe Observations. Astrophysical Journal, 952(1), Article 33. https://doi.org/10.3847/1538-4357/acd17e

Huang, J, Kasper, JC, Fisk, LA, Larson, DE, McManus, MD, Chen, CHK, Martinović, MM, Klein, KG, Thomas, L, Liu, M, Maruca, BA, Zhao, L, Chen, Y, Hu, Q, Jian, LK, Verniero, JL, Velli, M, Livi, R, Whittlesey, P, Rahmati, A, Romeo, O, Niembro, T, Paulson, K, Stevens, M, Case, AW, Pulupa, M, Bale, SD & Halekas, JS 2023, 'The Structure and Origin of Switchbacks: Parker Solar Probe Observations', Astrophysical Journal, vol. 952, no. 1, 33. https://doi.org/10.3847/1538-4357/acd17e

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title = "The Structure and Origin of Switchbacks: Parker Solar Probe Observations",

abstract = "Switchbacks are rapid magnetic field reversals that last from seconds to hours. Current Parker Solar Probe (PSP) observations pose many open questions in regard to the nature of switchbacks. For example, are they stable as they propagate through the inner heliosphere, and how are they formed? In this work, we aim to investigate the structure and origin of switchbacks. In order to study the stability of switchbacks, we suppose the small-scale current sheets therein are generated by magnetic braiding, and they should work to stabilize the switchbacks. With more than 1000 switchbacks identified with PSP observations in seven encounters, we find many more current sheets inside than outside switchbacks, indicating that these microstructures should work to stabilize the S-shape structures of switchbacks. Additionally, we study the helium variations to trace the switchbacks to their origins. We find both helium-rich and helium-poor populations in switchbacks, implying that the switchbacks could originate from both closed and open magnetic field regions in the Sun. Moreover, we observe that the alpha-proton differential speeds also show complex variations as compared to the local Alfv{\'e}n speed. The joint distributions of both parameters show that low helium abundance together with low differential speed is the dominant state in switchbacks. The presence of small-scale current sheets in switchbacks along with the helium features are in line with the hypothesis that switchbacks could originate from the Sun via interchange reconnection process. However, other formation mechanisms are not excluded.",

author = "Jia Huang and Kasper, {J. C.} and Fisk, {L. A.} and Larson, {Davin E.} and McManus, {Michael D.} and Chen, {C. H.K.} and Martinovi{\'c}, {Mihailo M.} and Klein, {K. G.} and Luke Thomas and Mingzhe Liu and Maruca, {Bennett A.} and Lingling Zhao and Yu Chen and Qiang Hu and Jian, {Lan K.} and Verniero, {J. L.} and Marco Velli and Roberto Livi and P. Whittlesey and Ali Rahmati and Orlando Romeo and Tatiana Niembro and Kristoff Paulson and M. Stevens and Case, {A. W.} and Marc Pulupa and Bale, {Stuart D.} and Halekas, {J. S.}",

note = "Publisher Copyright: {\textcopyright} 2023. The Author(s). Published by the American Astronomical Society.",

year = "2023",

month = jul,

day = "1",

doi = "10.3847/1538-4357/acd17e",

language = "English (US)",

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TY - JOUR

T1 - The Structure and Origin of Switchbacks

T2 - Parker Solar Probe Observations

AU - Huang, Jia

AU - Kasper, J. C.

AU - Fisk, L. A.

AU - Larson, Davin E.

AU - McManus, Michael D.

AU - Chen, C. H.K.

AU - Martinović, Mihailo M.

AU - Klein, K. G.

AU - Thomas, Luke

AU - Liu, Mingzhe

AU - Maruca, Bennett A.

AU - Zhao, Lingling

AU - Chen, Yu

AU - Hu, Qiang

AU - Jian, Lan K.

AU - Verniero, J. L.

AU - Velli, Marco

AU - Livi, Roberto

AU - Whittlesey, P.

AU - Rahmati, Ali

AU - Romeo, Orlando

AU - Niembro, Tatiana

AU - Paulson, Kristoff

AU - Stevens, M.

AU - Case, A. W.

AU - Pulupa, Marc

AU - Bale, Stuart D.

AU - Halekas, J. S.

PY - 2023/7/1

Y1 - 2023/7/1

N2 - Switchbacks are rapid magnetic field reversals that last from seconds to hours. Current Parker Solar Probe (PSP) observations pose many open questions in regard to the nature of switchbacks. For example, are they stable as they propagate through the inner heliosphere, and how are they formed? In this work, we aim to investigate the structure and origin of switchbacks. In order to study the stability of switchbacks, we suppose the small-scale current sheets therein are generated by magnetic braiding, and they should work to stabilize the switchbacks. With more than 1000 switchbacks identified with PSP observations in seven encounters, we find many more current sheets inside than outside switchbacks, indicating that these microstructures should work to stabilize the S-shape structures of switchbacks. Additionally, we study the helium variations to trace the switchbacks to their origins. We find both helium-rich and helium-poor populations in switchbacks, implying that the switchbacks could originate from both closed and open magnetic field regions in the Sun. Moreover, we observe that the alpha-proton differential speeds also show complex variations as compared to the local Alfvén speed. The joint distributions of both parameters show that low helium abundance together with low differential speed is the dominant state in switchbacks. The presence of small-scale current sheets in switchbacks along with the helium features are in line with the hypothesis that switchbacks could originate from the Sun via interchange reconnection process. However, other formation mechanisms are not excluded.

AB - Switchbacks are rapid magnetic field reversals that last from seconds to hours. Current Parker Solar Probe (PSP) observations pose many open questions in regard to the nature of switchbacks. For example, are they stable as they propagate through the inner heliosphere, and how are they formed? In this work, we aim to investigate the structure and origin of switchbacks. In order to study the stability of switchbacks, we suppose the small-scale current sheets therein are generated by magnetic braiding, and they should work to stabilize the switchbacks. With more than 1000 switchbacks identified with PSP observations in seven encounters, we find many more current sheets inside than outside switchbacks, indicating that these microstructures should work to stabilize the S-shape structures of switchbacks. Additionally, we study the helium variations to trace the switchbacks to their origins. We find both helium-rich and helium-poor populations in switchbacks, implying that the switchbacks could originate from both closed and open magnetic field regions in the Sun. Moreover, we observe that the alpha-proton differential speeds also show complex variations as compared to the local Alfvén speed. The joint distributions of both parameters show that low helium abundance together with low differential speed is the dominant state in switchbacks. The presence of small-scale current sheets in switchbacks along with the helium features are in line with the hypothesis that switchbacks could originate from the Sun via interchange reconnection process. However, other formation mechanisms are not excluded.

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JO - Astrophysical Journal

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The Structure and Origin of Switchbacks: Parker Solar Probe Observations

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